Journal of Lipid Research (Jan 2018)

Small molecule inducers of ABCA1 and apoE that act through indirect activation of the LXR pathway

  • Jianjia Fan,
  • Rui Qi Zhao,
  • Cameron Parro,
  • Wenchen Zhao,
  • Hsien-Ya Chou,
  • Jerome Robert,
  • Tarek Z. Deeb,
  • Carina Raynoschek,
  • Samantha Barichievy,
  • Ola Engkvist,
  • Marcello Maresca,
  • Ryan Hicks,
  • Johan Meuller,
  • Stephen J. Moss,
  • Nicholas J. Brandon,
  • Michael W. Wood,
  • Iva Kulic,
  • Cheryl L. Wellington

Journal volume & issue
Vol. 59, no. 5
pp. 830 – 842

Abstract

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apoE is the primary lipid carrier within the CNS and the strongest genetic risk factor for late onset Alzheimer's disease (AD). apoE is primarily lipidated via ABCA1, and both are under transcriptional regulation by the nuclear liver X receptor (LXR). Considerable evidence from genetic (using ABCA1 overexpression) and pharmacological (using synthetic LXR agonists) studies in AD mouse models suggests that increased levels of lipidated apoE can improve cognitive performance and, in some strains, can reduce amyloid burden. However, direct synthetic LXR ligands have hepatotoxic side effects that limit their clinical use. Here, we describe a set of small molecules, previously annotated as antagonists of the purinergic receptor, P2X7, which enhance ABCA1 expression and activity as well as apoE secretion, and are not direct LXR ligands. Furthermore, P2X7 is not required for these molecules to induce ABCA1 upregulation and apoE secretion, demonstrating that the ABCA1 and apoE effects are mechanistically independent of P2X7 inhibition. Hence, we have identified novel dual activity compounds that upregulate ABCA1 across multiple CNS cell types, including human astrocytes, pericytes, and microglia, through an indirect LXR mechanism and that also independently inhibit P2X7 receptor activity.

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